Examples of 'switching losses' in a sentence
Meaning of "switching losses"
switching losses: Switching losses are a type of energy loss that occurs in electronic devices or systems during the process of switching signals, turning components on or off, or changing states. This phenomenon commonly arises in power electronics, circuits, and semiconductor devices, resulting in inefficiencies and heat generation
How to use "switching losses" in a sentence
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switching losses
In this way switching losses are largely avoided.
This choice allows to reduce switching losses.
Switching losses and therefore increase efficiency.
Higher voltages also increase switching losses.
Switching losses may be lower and distributed.
This helps to reduce switching losses.
The switching losses are reduced since a lower frequency modulation may be used.
This frequency distribution is provided in order to minimize switching losses.
The control system allows the switching losses to be drastically reduced.
This configuration has the advantage of reducing switching losses.
The switching losses are highest at small current when the conduction losses are minimum.
The advantage of this measure is that switching losses are minimized or avoided.
One drawback of this system is that it causes significant switching losses.
This explains why the switching losses are far smaller with these two capacitors.
Optimise the switching time in order to limit the switching losses.
See also
This results in high switching losses in the IGBTs and reduces the overall transmission efficiency.
Strategy selection will affect the harmonic content and the switching losses.
This avoids switching losses and minimizes EMI.
Yet a major drawback of silicon diodes is that they present substantial switching losses.
This may result in a reduction of the switching losses in the switch elements.
Operation in phase ensures optimum operation of the power switching transistors and minimizes switching losses.
Smaller heatsink, as switching losses are reduced to a minimum.
The power losses are formed from line losses and from switching losses.
Again, switching losses may be reduced by this measure.
Owing to the sequential power up, switching losses are generated.
As mentioned above, switching losses are largely determined by the quality of actuation.
Therefore, switching of a high voltage causes significant switching losses to appear.
It is desired to reducing switching losses at turn-on of a power electronic switch.
This reduction in the stresses on the inverter 1 limits the switching losses.
In this case, it is possible to suppress switching losses induced in the switching devices.
In addition, breakers are chosen to allow fast switching, in order to reduce switching losses.
Of course, the switching losses increase with the operating frequency of the converter.
Method for driving inverters, and inverter adapted to reduce switching losses.
At lower frequencies, the switching losses and thus power losses are greatly reduced.
Disadvantageously, however, this technique results in additional switching losses in the power devices.
Furthermore, switching losses generally increase as the switching converter operating frequency is increased.
Besides, this work also proposes an optimization for the methodology of switching losses estimation.
This way, switching losses are minimized and maximal efficiency of the converter is achieved.
In particular, the asymmetric structure reduces switching losses when the device is turned off.
In practice, these switching losses are the limiting factor for the choice of switching frequency.
However, this solution implies using very costly power components and increases switching losses.
However, conduction losses and switching losses are very much part of the diode losses.
Such converters have the advantage that energy-efficient operation with relatively low switching losses is possible.
Thus, switching losses are reduced, and the absence of the third inductor reduces iron losses.
These losses include turn-on and turn-off switching losses and switch transition losses.
Switching losses arise from two independent sources, depicted in a simplified fashion in Figure 5.
Low complexity, low realization effort Low switching losses.
This value has the effect of minimizing switching losses during the switching of the switch T 2.
Moreover, silicon carbide based Schottky diodes do not suffer from switching losses.
This enables to significantly limit switching losses in primary bridge H 1.
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